fig10

Figure 10. (A) Plot showing average equivalent radius r of the γ’ precipitate vs. aging time t during isothermal aging at 900, 950, 1,000, and 1,050 °C in the 6Ti4Cr3Ta1Mo alloy; (B) Plot between log< r(t) > vs. log(t) for the 6Ti4Cr3Ta1Mo alloy during isothermal aging at 900, 950, 1,000, and 1,050 °C giving the temporal growth exponent of γ’ phases, which corresponds to classical LSW growth exponent; (C) Variation of the average equivalent radius r(t)³ of γ’ phases with the aging time t in the 6Ti4Cr3Ta1Mo alloy where the linear fitting curves are shown, and the fitted slopes corresponding to coarsening rate constant K_r, as well as the coefficient of determination R² are also marked.